The latest version of this documentation is available on GitHub.
There are two parts to using registries; this documents the creation side of the relationship. In order to learn more about using registries that others have created, please read this documentation.
Registries are collections of ports and their versions. There are two major choices of implementation for registries, if you want to create your own - git registries, and filesystem registries.
Git registries are simple git repositories, and can be shared publicly or privately via normal mechanisms for git repositories. The vcpkg repository at https://github.com/microsoft/vcpkg, for example, is a git registry.
Filesystem registries are designed as more of a testing ground. Given that they literally live on your filesystem, the only way to share them is via shared directories. However, filesystem registries can be useful as a way to represent registries held in non-git version control systems, assuming one has some way to get the registry onto the disk.
Note that we expect the set of registry types to grow over time; if you would like support for registries built in your favorite public version control system, don't hesitate to open a PR.
The basic structure of a registry is:
- The set of versions that are considered "latest" at certain times in history, known as the "baseline".
- The set of all the versions of all the ports, and where to find each of these in the registry.
As you're following along with this documentation, it may be helpful to have a working example to refer to. We've written one and put it here: https://github.com/northwindtraders/vcpkg-registry.
All git registries must have a versions/baseline.json
file. This file
contains the set of "latest versions" at a certain commit. It is laid out as
a top-level object containing only the "default"
field. This field should
contain an object mapping port names to the version which is currently the
latest.
Here's an example of a valid baseline.json:
{
"default": {
"kitten": {
"baseline": "2.6.2",
"port-version": 0
},
"port-b": {
"baseline": "19.00",
"port-version": 2
}
}
}
The versions
directory contains all the information about which versions of
which packages are contained in the registry, along with where those versions
are stored. The rest of the registry just acts as a backing store, as far as
vcpkg is concerned: only things inside the versions
directory will be used
to direct how your registry is seen by vcpkg.
Each port in a registry should exist in the versions directory as
<first letter of port>-/<name of port>.json
; in other words, the
information about the kitten
port would be located in
versions/k-/kitten.json
. This should be a top-level object with only a
single field: "versions"
. This field should contain an array of version
objects:
- The version of the port in question; should be exactly the same as the
vcpkg.json
file, including the version fields and"port-version"
. - The
"git-tree"
field, which is a git tree; in other words, what you get when you writegit rev-parse COMMIT-ID:path/to/port
.
Note that the version fields for ports with CONTROL
files, is
"version-string"
; we do not recommend using CONTROL
files in new
registries, however.
WARNING: One very important part of registries is that versions should never be changed. Updating to a later ref should never remove or change an existing version. It must always be safe to update a registry.
Here's an example of a valid version database for a kitten
port with one
version:
{
"versions": [
{
"version": "2.6.2",
"port-version": 0,
"git-tree": "67d60699c271b7716279fdea5a5c6543929eb90e"
}
]
}
In general, it's not important where you place port directories. However, the
idiom in vcpkg is to follow what the built in vcpkg registry does: your
kitten
port should be placed in ports/kitten
.
WARNING: One other thing to keep in mind is that when you update a registry, all previous versions should also be accessible. Since your user will set their baseline to a commit ID, that commit ID must always exist, and be accessible from your HEAD commit, which is what is actually fetched. This means that your HEAD commit should be a child of all previous HEAD commits.
Builtin registries are treated as special Git registries. Instead of fetching from a remote url, builtin registries consult the $VCPKG_ROOT/.git
directory of the vcpkg clone. They use the currently checked out $VCPKG_ROOT/versions
directory as the source for versioning information.
There is some git trickery involved in creating a new version of a port. The
first thing to do is make some changes, update the "port-version"
and regular
version field as you need to, and then test with overlay-ports
:
vcpkg install kitten --overlay-ports=ports/kitten
.
Once you've finished your testing, you'll need to make sure that the directory as it is is under git's purview. You'll do this by creating a temporary commit:
> git add ports/kitten
> git commit -m 'temporary commit'
Then, get the git tree ID of the directory:
> git rev-parse HEAD:ports/kitten
73ad3c823ef701c37421b450a34271d6beaf7b07
Then, you can add this version to the versions database. At the top of your
versions/k-/kitten.json
, you can add (assuming you're adding version
2.6.3#0
):
{
"versions": [
{
"version": "2.6.3",
"port-version": 0,
"git-tree": "73ad3c823ef701c37421b450a34271d6beaf7b07"
},
{
"version": "2.6.2",
"port-version": 0,
"git-tree": "67d60699c271b7716279fdea5a5c6543929eb90e"
}
]
}
then, you'll want to modify your versions/baseline.json
with your new version
as well:
{
"default": {
"kitten": {
"baseline": "2.6.3",
"port-version": 0
},
"port-b": {
"baseline": "19.00",
"port-version": 2
}
}
}
and amend your current commit:
> git commit --amend
then share away!
As you're following along with this documentation, it may be helpful to have a working example to refer to. We've written one and put it here: https://github.com/vcpkg/example-filesystem-registry.
All filesystem registries must have a versions/baseline.json
file. This file
contains the set of "latest versions" for a certain version of the registry.
It is laid out as a top-level object containing a map from version name to
"baseline objects", which map port names to the version which is considered
"latest" for that version of the registry.
Filesystem registries need to decide on a versioning scheme. Unlike git registries, which have the implicit versioning scheme of refs, filesystem registries can't rely on the version control system here. One possible option is to do a daily release, and have your "versions" be dates.
WARNING: A baseline must not be modified once published. If you want to change or update versions, you need to create a new baseline in the baseline.json
file.
Here's an example of a valid baseline.json
, for a registry that has decided
upon dates for their versions:
{
"2021-04-16": {
"kitten": {
"baseline": "2.6.2",
"port-version": 0
},
"port-b": {
"baseline": "19.00",
"port-version": 2
}
},
"2021-04-15": {
"kitten": {
"baseline": "2.6.2",
"port-version": 0
},
"port-b": {
"baseline": "19.00",
"port-version": 1
}
}
}
The versions
directory contains all the information about which versions of
which packages are contained in the registry, along with where those versions
are stored. The rest of the registry just acts as a backing store, as far as
vcpkg is concerned: only things inside the versions
directory will be used
to direct how your registry is seen by vcpkg.
Each port in a registry should exist in the versions directory as
<first letter of port>-/<name of port>.json
; in other words, the
information about the kitten
port would be located in
versions/k-/kitten.json
. This should be a top-level object with only a
single field: "versions"
. This field should contain an array of version
objects:
- The version of the port in question; should be exactly the same as the
vcpkg.json
file, including the version fields and"port-version"
. - The
"path"
field: a relative directory, rooted at the base of the registry (in other words, the directory whereversions
is located), to the port directory. It should look something like"$/path/to/port/dir
"
Note that the version fields for ports with CONTROL
files, is
"version-string"
; we do not recommend using CONTROL
files in new
registries, however.
In general, it's not important where you place port directories. However, the
idiom in vcpkg is to follow somewhat closely to what the built in vcpkg
registry does: your kitten
port at version x.y.z
should be placed in
ports/kitten/x.y.z
, with port versions appended as you see fit (although
since #
is not a good character to use for file names, perhaps use _
).
WARNING: One very important part of registries is that versions should never be changed. One should never remove or change an existing version. Your changes to your registry shouldn't change behavior to downstream users.
Here's an example of a valid version database for a kitten
port with one
version:
{
"versions": [
{
"version": "2.6.2",
"port-version": 0,
"path": "$/ports/kitten/2.6.2_0"
}
]
}
Unlike git registries, adding a new version to a filesystem registry mostly
involves a lot of copying. The first thing to do is to copy the latest
version of your port into a new version directory, update the version and
"port-version"
fields as you need to, and then test with overlay-ports
:
vcpkg install kitten --overlay-ports=ports/kitten/new-version
.
Once you've finished your testing, you can add this new version to the top of
your versions/k-/kitten.json
:
{
"versions": [
{
"version": "2.6.3",
"port-version": 0,
"path": "$/ports/kitten/2.6.3_0"
},
{
"version": "2.6.2",
"port-version": 0,
"path": "$/ports/kitten/2.6.2_0"
}
]
}
then, you'll want to modify your versions/baseline.json
with your new version
as well (remember not to modify existing baselines):
{
"2021-04-17": {
"kitten": {
"baseline": "2.6.3",
"port-version": 0
},
"port-b": {
"baseline": "19.00",
"port-version": 2
}
},
"2021-04-16": {
"kitten": {
"baseline": "2.6.2",
"port-version": 0
},
"port-b": {
"baseline": "19.00",
"port-version": 2
}
},
"2021-04-15": {
"kitten": {
"baseline": "2.6.2",
"port-version": 0
},
"port-b": {
"baseline": "19.00",
"port-version": 1
}
}
}
and you're done!